Proof of Nuprl Lemma : once-once-class

Step * 1 1 of Lemma once-once-class

1. Info : Type
2. A : Type
3. X : EClass(A)
4. es : EO+(Info)@i'
5. e : E@i
6. ∃e'<e.((↓∃v:A. v ∈ (X until X)(e')) ∧ ∀e''<e.(↓∃v:A. v ∈ (X until X)(e'')) ⇒ e'' ≤loc e' )
∧ (class-pred((X until X);es;e) = (inl e') ∈ (E + Top))

⊢ case class-pred((X until X);es;e) of inl(e') => {} | inr(z) => (X until X) es e = ((X until X) es e) ∈ bag(A)

BY
{ (RepeatFor 3 (D (-1)) THEN HypSubst' -1 0 THEN Reduce 0 THEN Auto) }

1
1. Info : Type
2. A : Type
3. X : EClass(A)
4. es : EO+(Info)@i'
5. e : E@i
6. e' : E
7. (e' <loc e)
8. ∃v:A. v ∈ (X until X)(e')
9. ∀e''<e.(↓∃v:A. v ∈ (X until X)(e'')) ⇒ e'' ≤loc e'
10. class-pred((X until X);es;e) = (inl e') ∈ (E + Top)
⊢ {} = ((X until X) es e) ∈ bag(A)

Latex:

Latex:
1. Info : Type 2. A : Type 3. X : EClass(A) 4. es : EO+(Info)@i' 5. e : E@i 6. \mexists{}e'<e.((\mdownarrow{}\mexists{}v:A. v \mmember{} (X until X)(e')) \mwedge{} \mforall{}e''<e.(\mdownarrow{}\mexists{}v:A. v \mmember{} (X until X)(e'')) {}\mRightarrow{} e'' \mleq{}loc e' ) \mwedge{} (class-pred((X until X);es;e) = (inl e')) \mvdash{} case class-pred((X until X);es;e) of inl(e') => \{\} | inr(z) => (X until X) es e = ((X until X) es e) By Latex: (RepeatFor 3 (D (-1)) THEN HypSubst' -1 0 THEN Reduce 0 THEN Auto) Home Index